Computing machine



July 7, 1942. w. W. LANDSIEDEL COMPUTING MACHINE Filed May 25, 1959 7 Sheets-Sheet l INVENTOR W. W. LANDSIEDEL 1 BY a ,7

ATTORNEY y 1942- w. w. LANDSIEDEL 2,239,055

COMPUTING MACHINE Filed May 25, 1939 7 Sheets-Sheet 2 INVENTOR W W LANDSIEDEL TORNEY July 7, 1942- w. w. LANDSIEDEL COMPUTING MACHINE Filed May 25, 1959 '7 Sheets-Sheet 3 \NVENTOR W. W. LANDSIEDEL AT ORNEY y 1942- w. w. LANDSIEDEL 2,289,055

COMPUTING MACHINE Filed May 25, 1939 7 Sheets-Sheet 4 I INVENTOR W. W LANDSIEDEL y 1942 w. w. LANDSIEDEL 2,289,055

COMPUTING MACHINE Filed May 25, 1939 '7 Sheets-Sheet 5 FIG. 5

i I p INVENTOR I 35 53 4O W. W LANDSIEDEL 24 Q My A TORNEY .July 7, 1942. w. w. LANDSIEDEL 2,289,055

COMPUTING MACHINE Filed May 25, 1959 7 Sheets-Sheet 6 INVENTOR W. W LANDSJEDEL A TORNEY July 7, 1942. w. w. LANDSIEDEL CQJIIPUTING MACHINE E iled May 25, 1939 '7 Sheets-Sheet 7 m. o e P N w m m w m2 w n \m S m h. 7 22k 0 =0: H

INVENTOR W W. LANDSIEDEL.

Patented July 7, 1942 UNITED STATES PATENT OFFICE COMPUTING MACHINE Walter W. Landsiedel, Elmira, N. Y., assignor to Remington Rand Inc., Buiialo, N. Y., a corporation of Delaware Application May 25, 1939, Serial No. 275,603

4 Claims; (Cl. 235-79) the nature of the work to be done does not require a printed record.

The present invention is shown embodied in an adding machine of the type shown in the U. S. Patents 1,899,444 and 1,835,170 to'Thomas 0. Mehan, issued April 19, 1938 and December 8, 1931, respectively. While the features of the present invention were designed primarily for use in the above machine, and may be readily incorporated therein without materially modifying the existing structural features thereof, it will be understood that this invention is not restricted to the embodiment in such machine but may be included in computing machines gener- The machine shown and described in the above mentioned patents is of the portable type in which addition is accomplished by setting up an amount in the usual traveling pin carriage and then, through the actuating racks, transferring the amount set up in the carriage into the accumulator. A total may then be taken after a blank stroke of the machine during which total operation the accumulators are cleared. The above machine has contained therein printing instrumentalities which print items at each adding operation. It has been found that the above printing unit is of such complex construction as to increase the cost of the machine considerably. Therefore, in order that the above machine may be made so that it can be used in :3.

small oflices, homes and places of business, where the nature 01' the work to be done does not warrant the purchase of a machine of the listing type, the printing unit and its associated mechanism has been eliminated.

However, in order that the operator of the above machine may be able to see each item (or the last item) entered into the accumulator, a register is provided which is of simple and novel construction.

The register in accordance with the invention includes a plurality of item dials having two sets of figures thereon, black for addition and red for subtraction. These dials are equal in number to the accumulator pinions andthrough corresponding gear sectors they are actuated in the following manner:

Upon the forward stroke of an adding operation, the actuating racks which are permitted to move to the rear of themachine by the set-up in the pin carriage, will, through the gear sectors, set up a corresponding amount in the item dials, thereby enabling the operator to see, through a window in the casing, the item set up on the keyboard.

The amount is entered in the accumulator in the usual manner during the return stroke of the machine.

At the beginning of the next adding operation the item dials are released from the previous setup and are permitted to return to normal position. But, the actuating racks moved by the new set-up in the pin carriage engage their corresponding sectors which will rotate the item dials, thereby registering the new amount set up on the keyboard. Upon taking a blank stroke of the machine the item dials are restored to normal.

In taking a total the actuating racks which move toward the rear of the machine operate the item dials in the same manner described thereby registering a total which is visible through the window in the casing.

Provision is made in the present machine to simply and conveniently perform problems in subtraction by complementary addition.

This is accomplished by setting up on the keyboard the complement of the amount to be subtracted, and depressing the subtract key.

Depression of the subtract key conditions the machine to add nine to each order to the left of the highest significant order of the subtrahend by raising a restraining plate.

The subtract key is connected to a dial shield or shutter which has formed therein two elongated slots through which the red and black figures on the item dials are visible. The construction is such that with the machine conditioned for adding the black figures on the item dials are visible and with the machine conditioned for subtraction, i. e., the subtract key in its operated position, the red figures on the dial are visible, which red figures represent the subtracted amount or the negative total.

An object of this invention is to visibly register each positive or negative amount entered into the accumulator.

Other objects and structural details of the invention will be apparent from the following description when read in connection with the accompanying drawings, wherein:

Fig. 1 is a top plan view of the machine with the cover partly broken away to show the item dials, the subtract key and their associated mechanisms;

Fig. 2 is a right-hand sectional elevation taken along the line 22 of Fig. 1;

Fig. 3 is a right-hand sectional elevation taken along the'line 3-3 of Fig. 1;

Fig. 4 is a left-hand elevational view of the machine just inside the cover showing the subtract key and its associated mechanism;

Fig. 5 is a front sectional elevation taken along the line 5-5 of Fig. 2;

Fig. 6 is a front sectional elevation taken along the line 6-6 of Fig. 2;

Fig. 7 is a right-hand sectional detail view showing the adding racks and associated mechanism in a position at the end of the forward stroke with the number "four" key depressed;

Fig. 8 is a right-hand sectional detail view of the mechanism shown in Fig. 7 at the end of the return stroke with the item dials registering the amount "four;

Fig. 9 is a right-hand detail view partly in section of the subtract key in operated position;

Fig. 10 is a right-hand detail view partly in section of the blank stroke lock mechanism in the position it assumes when the subtract key is operated; and

Fig. 11 is a plan view in development of an item dial showing the two sets of figures thereon.

FRAMES, SET-UP, AND MAIN OPERATING Mechanism (Figs 1, 2, 3, and 6) The frame of the machine comprises outer side plates and 2|, and inner plates 22 and 23, said plates being suitably united and secured to a base 24. A pair of guide rails 25 supported at their ends in outer plates 22 and 23 support and guide a pin carriage generally designated 26. This pin carriage is adapted to travel step-by-step transversely of the machine under control of an escapement mechanism designated as a whole by the reference numeral 21 (Fig. 3). The operation of the escapement mechanism is fully described in the above mentioned Patent 1,899,444, and need not be further described herein. The carriage 26 supports pins or stops 28 mounted for movement thereon from an elevated ineffective position to a lowered effective position by digit keys 36 mounted upon the keyboard of the machine generally designated by reference numeral 29. When each selected pin or stop 28 is depressed to effective position, it is interposed in the path of an aligned stop or ear 3| carried on an associated adding or actuating rack 32, there being nine in the present machine. The racks 32 extend upwardly and rearwardly and are guided for sliding movement by a comb 33 and a rod 34 fixed intermediate the inner plates 22 and 23. Mounted upon the lower portion of each adding rack 32 by a pin and slot connection is a slide 35. The rack and slide are connected by a spring 36 for the purpose of transfer and are urged toward the rear of the machine by a spring 31.

The machine is shown as hand-operated by a crank handle 33 (Fig. 1) which is removably secured to a stub shaft 46 journaled in bearings suitably secured to base 24. However, it is obvious that the shaft 46 may be power actuated. Secured to shaft 46 is an arm 4| which has suitable stop portionsto limit the degree of oscillation of the shaft. A link 42 pivotally connects the arm 4| with a full stroke sector 43 which is secured to a main shaft 44 iournaled in outer and inner plates 26, 2|, 22, and 23. A spring not shown urges the shaft 44 clockwise.

Secured to the shaft 44 is a cam plate 45 hav-' ing a cam slot 46 which is adapted to receive a roller 41 on an arm 43 fixed to a shaft 50 (Fig 3). The shaft 56 is iournaled in the inner frame plates 22 and 23 and has secured thereon a pair of downwardly extending arms 5i (Fig. 2). The arms 5| each have a forwardly extending link 52 connected thereon which links are connected at their forward ends by a bail 53 adapted to ride in horizontal slots 54 formed in frame plates 22 and 23. The ball 53 bears against the slides 35, thus holding the racks 32 toward the front of the machine. The construction of the above mechanism is such that as the handle 38 is rocked counter-clockwise the sector 43 and the plate 45 are rocked in the same direction through link 42 and arm 4|. The rocking of the plate 45 rocks the arm 46, through the slot 46 and roller 41, counter-clockwise resulting in moving the bail 53 toward the rear of the machine, thereby permitting the racks 32 and slides 35 to move rearward until arrested by the stops 26, which have been set by the keys. In order to prevent the rearward movement of the racks of higher denominational order than those corresponding to the set-up made by the digit keys a restraining plate 55 is provided which is pivotally mounted upon the carriage 26. This plate 55 is formed at its forward end with a stop portion 56, which normally lies in the path of the ears 3i so as to prevent the rearward movement of the racks 32.

Upon each operation of the digit keys the plate 55 moves one step to the left as viewed from the front of the machine and moves the stop 56 out. of the path of the ears 3! corresponding to the orders set by the keys. It is, therefore, seen that upon the forward movement of the handle 38 only the racks that do not lie in the path of the stop will move rearward. Upon the return stroke of the handle the bail 53 is moved toward the frontof the machine to return the slides and racks to normal position.

ACCUMULATOR SHIFTING MEcHANIsM (Figs. 1, 2, 3, and 4) The accumulator consists of a plurality of tentoothed pinions 60, one for each denominational order, which are rotatably mounted upon an accumulator shaft 6| carried by a pair of arms 62. The arms 62 are pinned to a shaft 63 journaled in the inner frame plates 22 and 23 (Figs. 1 and 2) so that when the shaft 63 is rocked the pinions 66 will be brought into and out of engagement with teeth formed on the adding racks 32.

The machinsm for rocking the shaft 63 will now be described. Rigidly secured to the lefthand end of the shaft 44 (Figs. 1 and 4) is a lever 64 having a forwardly extending arm 65 at the end of which is pivotally mounted a double acting wipe pawl 66. A spring 61 having one end connected to a pin on the arm 65 and the other end to the wipe pawl 66 tends to keep a finger 66, formed on the pawl, pointing outwardly in the direction of the arm 65. Shoulders III and I are formed in the wipe pawl 66 which are adapted to alternately engage pins I2 and 13, respectively. The pins 12 and 13 are set'in a plate I4 which is carried by a stud 15 screwed accumulator into and out of mesh with the add-- ing racks 32. A spring 93 having one end connected to the link II and the other end to the arm 92 tends to keep the notch 19 of link 9| in engagement with the pin I9 which is in the position assumed in normal adding operations. The arm 92 has a wedge-shaped end which is adapted to enter either of two notches 93 and 94 formed in a locking arm 99 pivoted on a stud secured to the frame plate 22. A spring 99 serves to hold the locking arm in engagement with the arm 92.

The construction is such that the accumulator pinions 99 which are normally in mesh with the adding racks 32 are raised out of mesh during the initial part of a forward stroke in the following manner. Upon clockwise movement of the arms 95 (Fig. 4) the shoulder I9 engages the pin I2 and forces the plate I4 clockwise which latter movement is communicated to the shaft 93 through the pin 19, link 9| and arm 92. The wedge-shaped end of the arm 92 cams the locking arm 94 counter-clockwise against the tension of the spring 99 and engages in the notch 94, thereby locking the pinions 99 out of engagement with the racks 32.

During the initial part of the return stroke of the handle the shoulder II of the wipe pawl engages the pin I3 of plate 14, thereby rocking the arm 92 counter-clockwise to move the pinions 69 into mesh with the adding racks 32.

CARRIAGE RETURN (Ras'ronmo Macmimsu) (Figs. 3 and 5) The mechanism for returning the pin carriage 29 is substantially the same as that shown and described in the above mentioned Patent 1,899,444. Connected to a depending arm on the cam plate 45 (Fig. 3) is a forwardly extending arm 91 which is resiliently urged counter-clockwise by a spring 99. This arm 91 has formed at its forward end a notch 99 adapted to engage a roller 9| on an arm 92 fixed to a short shaft 93 journalled in bearings suitably secured to base 24, The arm 92 has formed integral therewith a lug which is adapted to cooperate with the arm 91. Also fixedto the shaft 93 is a bevel Bear sector 94 which meshes with a bevel gear 99 secured to a shaft 96 which shaft is connected to the pin carriage 29 by an arm 91 (Fig. 5), fixed to said shaft, and a link 99.

The construction is such that near the end of the return stroke of the handle 39 the notch 99 of the arm 91 engages the roller 9| of the arm 92 rocking the arm in a counter-clockwise direction (Fig. 3). This rotates the shaft 99 in a clockwise direction (Fig. 5) through the medium of shaft 93, gear sector 94, and gear 95. Rotation of the shaft 99 restores the carriage 29 to the right through arm 91 and link 99. The lug formed on the arm 92 serves to disengage the notch 99 from the roller 9| at the completion of the carriage return operation.

TRANSFER Mncnamsu (Figs. 2 and 7) The transfer or carrying mechanism is of the type shown and described in the above mentioned Patent 1,899,444 in which the adding rack of the order into which a transfer is to be made is permitted to move an additional distance beyond normal to rotate its associated accumulator pinion an additional step.

Each pinion 99 (Figs. 2 and 7) carries a lug I99 which, when the pinion passes from'nine to zero, contacts with the cam surface "I (Fig. 2)

of a transfer pawl or arm I92 associated with the rack of the next higher denominational order, and depresses it sufllciently to permit a lug 39, formed on the rack, which normally is stopped by the end surface I93 of the arm I92, to enter notch I94. The transfer arms I92 are rotatably mounted upon a shaft 49 which is supported upon the inner frame plates 22 and 23, Latch I95 pivotally mounted on a shaft I99 is resiliently urged counter-clockwise by means of a spring I91 which at one end is attached to an ear on said latch and at the other end to an ear on the transfer arm I92. This spring I91 tends not only to swing the latch about its pivot but also to hold the arm I92 in raised position. The arm I92 has a lug I99 formed thereon which is normally in engagement with a notch on latch I95. When the transfer arm I92 is depressed by the lug I99 the latch I95 will swing counter-clockwise and the lug I99 will engage a lower notch on latch I95 holding the arm I92 depressed. A restoring bail 9 supported by the arms 92 restores the arms I92 at the beginning of each adding stroke of the machine. An aligner III has depending prongs 2 which are engaged by the pinions 99 to locate them in their correct position and prevent accidental rotation when they are not in mesh with the adding racks 32.

THE TOTAL TAKING Ann TOTAL KEY INTERLOCKING Mnonamsir (Figs. 1, 2, 3, 4, and 5) The total taking and total key interlocking mechanisms are substantially the same as shown and described in the above mentioned Patent 1,835,170.

A total key I|5 mounted for vertical movement in the keyboard 29 has projecting from the stem thereof an arm 9 (Fig. 5) which is slotted horizontally at III to receive an arm 9 (Fig. 4) of a bell-crank lever H9. The lever I I9, pivotally mounted on a rod I29, has a second arm |2I which has connected thereon the forward end of a link I22. This link extends rearwardly and is connected to the link 9|. It will be seen that upon depressing the total key 5 the link 9| is moved toward the rear of the machine thereby engaging notch 99 with pin 11. As has been described during adding operations the pinions 99 are out of engagement with the racks 32 on the forward stroke of the handle 39 and are moved into mesh with the racks during the return stroke. However, when the total key is depressed the pinions 99 remain in mesh during the forward stroke and move out of mesh upon the return stroke.

The link I22 has secured thereon a finger I23 which overlies an upturned lu I24 formed on the restraining plate 55. The construction is such that when the total key I I5 is depressed the finger I23 engages the lug I24 of plate 55 thereby raising the stop portion 59 of the plate above the stops 3| of racks 32.

A transfer in the accumulator is effected when the transfer lug I99 rocks the'arm I92 to permit the adding rack 32 of the next higher denominational order to move toward the front of the machine a distance of an additional tooth space. When the arm I92 is so rocked it is latched in that position by the latch I95. The above transfer operation takes place near the end of the return stroke of an adding operation, but the racks and transfer arms that have been operated are not restored until the start of the following machine cycle. It is obvious, therefore,

that before a total can be taken the arms I02 and racks 32 which have been operated through a transfer operation, must be restored to normal position as shown in Fig. 2 so that the hook formed on arm I02 will engage lug I to limit the rotation of its associated pinion when the accumulator is cleared on the forward stroke of the handle 38. To this end a blank stroke of the operating handle is required before the total taking operation can be initiated. The mechanism for accomplishing this result in the present machine is as follows:

Referring to Figs. 1, 3, and 5 the upper end of link 42 has mounted thereon a roller I25 which is adapted to engage the rear end of a forwardly extending link I26 near the end of the forward stroke of the handle. A stud I21 fixed to the outer frame plate 2| projects through a slot I28 formed in the link I26 and guides the link for forward and rearward movement. The link I26 is connected at its forward end to a depending arm I30 (Fig. 5) fixed to a shaft I3I one end of which is journaled in the outer plate 2| and the other end in a bracket I32. Also fixed to the shaft I3I is a depending hook arm I33 (Fig. 2) which is in vertical alignment with the arm II6 of the total key II5. A latch I34 (Fig. 3) pivoted at I35 to the link I26 has a spring I36 connected thereto which is adapted to normally rock the latch clockwise about its pivot and also urge the link rearwardly. The latch is limited in said rocking movement by the keyboard of the machine and has a depending toe portion I31 adapted to engage an upturned lug I38 secured to the carriage 26.

Formed integral with the bell-crank II6 (Figs. 1, 4, and 9) through a cross bar I40 is a depending arm I4I which has connected thereto the forward end of a rearwardly extending link I42, the rear end portion (Fig. l) of which is suitably slotted to receive astud I43, carried by the outer frame plate 20 by which the link is supported and guided. Projecting from the rear end of the link I42 is a lug I44 which is adapted to cooperate with a flange I45 on a keeper. plate I46 which plate is secured to the main shaft 44. The construction is such that the link I42 through the cooperation of its lug I44 with flange I45 is prevented from operation during a machine cycle.

Through the escapement mechanism mentioned above the carriage moves to the left one step for each digit key operation. This moves the lug I38 (Fig. 3) away from the toe I31 permitting the link I26, which is guided by the stud I21 in slot I28, to slide rearwardly through the tension of spring I36. Thus the shaft I3I is rocked counter-clockwise positioning the hook of arm I33 in the path of the arm II6 thereby locking the total key from operation.

Toward the end of the forward stroke of the handle the roller I25 engages the rear end of the link I26 rocking the'hook arm I33 out of the path of the arm II6 of the total key. However, the total key is prevented from being operated at this time by the flange I45 which is in the path of lug I44. At the beginning of the return stroke of the handle, the link I26 is permitted to move rearward, but, since the carriage return mechanism is so timed that the carriage is not returned to normal till near the completion of the machine cycle, the lug I38 permits the link I26 to move its full distance rearward. Therefore, it is seen that the total key is locked against operation after every adding cycle. Upon taking a blank stroke the link I26 is moved forwardly so that the toe I31 of latch I34 engages lug I 38, which has returned to normal at the end of the preceding cycle, thereby permitting operation of the total key in the next succeeding cycle of the machine.

The machine thus far described constitutes part of the usual Monarch computing machine hereinbefore referred to which is disclosed in the above mentioned patents.

ITEM DIAL MECHANISM (Figs 1, 2, 7, 8, and 11) As has been described above the purpose of the item dials is to indicate positive and negative items entered into the accumulator and also to indicate positive and negative totals when the accumulator is cleared.

Each adding rack 32 is provided with a rearwardly extending arm I50 having a downwardly projecting lug I5I formed at its rear end thereof. The lug I5I is adapted to cooperate with a roller I52 mounted uopn a stud I53 which is fixed to a depending arm I54 of a gear sector I55. The sectors I55 are rotatably mounted upon the rod 34 and are spaced apart by spacers I56 and the rear ends of the racks 32. A spring I51 having one end connected to the rear end of the slide 35 and the other end to the arm I54 tends to rotate the sector in a clockwise direction, the sector being limited in such movement by the main shaft 44.

Rotatably mounted upon a shaft I58, having its ends journaled in the inner frame plates 22 and 23, is a plurality of pinions I60 one for each sector I55. Teeth I6I of the pinion I60 are the same in number as the teeth of the accumulator pinion 60 and are in permanent meshing engagement withteeth I62 of the sector I55. Secured to the right of each pinion I60 (Fig. l) is an item dial I63, the outer periphery of which is provided with a double set of figures in contrasting colors, as for example, in the present machine, black and red, referred to in the drawings as I64 and I65, respectively. As is best seen' in Fig. 11, the black figures I64 are indicated in solid lines and the red figures I65 are indicated in dotted lines. All of the figures run from 0 to 9" and are arranged so that each black figure has directly above it a red figure which is the complement of the black figure, i. e., the black "9 has above it its complement the red 0; the black 8, the red 1, etc. A window I66 (Fig. 2) in a casing I61 is provided for visibly displaying the figures on the item dials I63.

I SEGMENT LOCK (Figs. 1, 2, 4, 7, and 8) In order to prevent accidental rotation of the item dials during certain intervals the following locking mechanism is provided.

Referring to Figs. 1 and 4, formed integral with the lever 64 is a second arm I10 which extends downwardly and rearwardly and which has mounted upon its rear end a wipe pawl I. This pawl is formed with a finger I12 and two shoulders I13 and I14. The pawl is urged in a counter-clockwise direction by a. spring I 15 having one end thereof connected to a pin I16 fixed to the arm I10 and the other end to a pin on the pawl. The finger I12 extends upwardly and rearwardly from the arm I10 and engages a pin I11 fixed to a plate I18, which plate is rotatably mounted upon the stud I19 fixed to inner plate 22. The plate I18 has another pin I88 secured thereon which extends through the plate I18 and ted th reon the forward end of a rearhas connec e 5 plished by complementary addition, '1. e., the

wardly extending link "I. The rear end of the link I8I is connected to a downwardly extending arm of a two-armed lever I83 rotatably mounted upon a stud I94 secured to the inner frame plate 22. The other arm of the lever I83 extends toward the front of the machine and is formed at its front end with a bail bar I86. This bar extends transversely across the machine and is in-.

tegral at its other end with another arm I81 (Fig. 1) pivotally mounted upon a stud I88 secured to the inner frame plate 23. The bar I86 is adapted to engage the teeth I82 of the sector I55 to prevent the sector from being rotated. Referring to Fig. 4 the downwardly extending arm of lever I83 is formed at its lower end with a V-shaped nose I98 adapted to engage notches HI and I92 formed in a rearwardly extending arm I93 of a two-armed lever. The lever is urged in a, clockwise direction by a spring I95 having one end thereof connected to a stud I96 on the inner frame plate 22 and the other end connected to the other arm I91 thereof.

The construction is such that if, for example, four is set up on the pin carriage 26 by depressing the number four" key, and the handle 38 is brought forward, the main shaft 44 is rocked ina clockwise direction (Fig. 4), thereby rocking the arm I18 clockwise. The finger I12 of the wipe pawl "I mounted on the arm I 18 rides on the pin I11 of plate I18 until the shoulder I13 of the pawl engages the pin. Further movement of the arm I18 forces the pin I11 rearward, thereby rocking the plate I18 clockwise. This will, through link I8I, rock the lever I83 clockwise until the nose I98 of the downwardly extending arm engages the notch I92 where it will remain during the remainder of the forward movement of the handle 38. The rocking of the lever I83 (Fig. '7) will move the bail I86 out of locking engagement with the teeth I62 of the gear segments I55, thereby permitting the segments to be rocked as will be described presently.

The forward movement of the handle 38 also rocks the shaft 58 counter-clockwise (Fig. 2), thereby moving the ball 53 rearward along slots 54 to permit the adding rack 32 and the slide 35 of the lowest denominational order to move towards the rear of the machine until it is arrested by the depressed pin 28 in the pin carriage. Immediately upon the start of the rearward movement of the rack, the lug I5I thereon engages the roller I 52 on the sector I55 and rotates the sector in a counter-clockwise direction (Fig. 2) against the tension of the spring I51. The sector I55 being in permanent meshing engagement with the pinion I68 rotates the pinion clockwise a distance of four tooth spaces. This positions the item dial I63 so that a black 4 on the dial is visible through the window I66 in the casing I61.

Near the beginning of the return stroke of the handle 38 the shoulder I14 (Fig. 4) on the wipe pawl I'II engages the pin I88 on the plate I18 and rocks the plate counter-clockwise until nose I98 engages notch I9I on the lever I93. This moves the bail I86 into engagement with the teeth I62 of the sectors I55 locking the sectors from rotation. Immediately following the above operation the racks 32 are returned to normal position by the bail 53 (Fig. 8).

Sunrnscr KEY Mechanism (Figs 1 and 4) In the present machine subtraction is accomcomplement of the amount to be subtracted (or the subtrahend) is added in the accumulator.

Referring to Fig. 1 the digit keys 38 are each provided with two figures complemental to each other. The large figures are used for positive amounts and the small figures are used for negative amounts. Such arrangement is old and well known and need not be further described herein.

Pivotally mounted upon a stub shaft 288 (Fig. 4) fixed to the inner frame plate 22 is a subtract key lever 28I which extends upwardly through a slot 282 of the keyboard plate 29. The lever 281 extends forwardly and inwardly and is adapted to engage a toe 285 of the restraining plate 65. When the subtract lever 28I is rocked counterclockwise the forward portion thereof raises the forward edge of the plate 55 permitting those racks which are normally restrained by the plate, during normal adding operations, as was previously described, to be moved toward the rear of the machine until they are arrested by the nine" stop 286 fixed to the pin carriage 26.

From the foregoing it will be seen that if, for example, a negative amount "275 is set up on the keyboard by using the small figures on the digit keys 38 and the subtract lever 28I is operated, then the amount actually set up on the carriage 26 will be 999999724 which amount is then added into the accumulator.

The transfer pawl I82 associated with the pinion of highest order is secured to the shaft 49- (Fig. 1). Thus, the shaft 49 is rocked in a clockwise direction (Fig. 2) each time that the pinion of highest order rotates from 9 to 0. Also secured to the shaft 49 is a transfer pawl I89 located adjacent the rack 32 of lowest order. The pawl I89 is similar to the pawls I82 and is so arranged that when the shaft 49 rocks in a clockwise direction (Fig. 2), as described above, the rack 32 of lowest order is permitted to move forward one tooth space which movement is transmitted to the pinion oi lowest order. Therefore, when the pinion of highest order moves from 9 to 0 one is entered in the pinion of lowest order.

Connected to the subtract key lever 28I by a stud 281 (Figs. 1 and 4) is a rearwardly extending link 288. The rear end of the link 288 is provided with a slot 2I8 through which passes a pin 2I I secured to a depending arm 2I2 of a dial shield or shutter 2I3. The shutter is U-shaped (Fig. 6) and is pivoted upon the ends of the shaft I58, one end passing through the arm 2 I2 at the left and the other end through an arm 2 I4 at the right. The shutter extends longitudinally of the item dial pinions and is provided at its top portion with two elongated slots or openings 2 I5 and 2I6 through which the black and red figures I64 and I on the item dials I63, as referred to above,are visible. A spring 2 (Fig. 4) having one end connected to the arm 2I2 of the shutter 2I3 and the other end to a stud 2I8 fixed to the inner frame plate 22, urges the shutter in a counter-clockwise direction.

Pivotally mounted upon the shaft I84 is a forwardly extending arm 228 which is formed at its forward end with a hook portion 22I adapted to cooperate with the pin 2 on the arm 2 I2. The arm 228 is also formed with 8. depending portion 222 on which is pivoted a wipe pawl 223. The

pawl 223 is urged in a counter-clockwise direction by a spring 224, one end of which is connected to a pin 225 on the arm 220 and the other end to a pin 226 fixed to the wipe pawl 223. The pin 226 also serves to limit a counter-clockwise movement of the pawl 223. Formed integral with the lever 64 is an upwardly and, rearwardly extending arm 221 which is provided with a pin 228 adapted to cooperate with the left-hand edge of ,the depending portion of the pawl 223. The arm 221 is further provided with a pin 230 which is adapted to cooperate with a depending lug 23| formed on the link 208. A detent spring 229, secured to the underside of the keyboard plate 28, cooperates with the stud 201 and tends to retain the subtract key lever 20| in either the "add" or the "subtract position.

The above construction is such that when the subtract key lever 20| is operated from its normal add" position to its subtract position, it rotates the shutter 2I3 through the link 208 in a clockwise direction against the tension of the spring 2|1. This positions the slot 2|6 of the shutter so that the red figures I65 on the item dials I63 are visible through the window I66 in frame I61. The pin 2 passes beneath the arm 220 until it is engaged by the hook 22|, thereby latching the shutter in its subtract position. On the forward stroke of the handle 38 the pin 228 of the arm 221 engages the depending portion of the pawl 223 thereby lifting the hook out of engagement with the pin 2| I. The hook portion 22| remains disengaged from the pin 2|| until the pin 228 rides past the depending portion of the pawl 223 permitting the hook 22I to again engage the pin 2| I. Further forward movement of the handle 38 moves the pin 230, on the arm 221, into engagement with the lug 23I of the link 208 and restores the subtract key 20| to normal add" position. Upon the return stroke of the handle 38, the pin 228, on the arm 221, rocks the wipe pawl 223 in a clockwise direction against the spring 224 until it rides past it permitting the pawl to snap back into normal position through spring 224. The shutter 2 l3 remains in the above subtract position until the start of the next adding operation of the machine when the pin 228 again lifts the hook 22| out of engagement with the pin 2| I,but since at this time the subtract key is in its normal add position, the

. shutter is allowed to return to its normal add position by the spring 2| 1.

In order to release the regular blank stroke lock whenever the subtract key is operated to subtract position the following mechanism is provided.

Referring to Figs. 1 and 10 the right-hand arm 2|4 of the shutter 2|3 is connected at its lower end to a forwardly extending link 232 which link is connected at its forward end to an upright arm 233. This arm is formed integral with an upwardly and forwardly extending arm 234 by a bail 235. The assembly consisting of the arm 233, arm 234, and the bail 235 is mounted for rotation upon a short stub shaft 236 extending inwardly from and fixed to the outer plate 2|. The forward portion of the arm 234 is adapted to cooperate with a. pin 231 on the latch I34.

The construction is such that with the shutter in its "subtract position (Fig. 10), the arm 234 raises the latch I34 against the tension of the spring I36, permitting the link I26 to move toward the rear of the machine and rock shaft |3| counter-clockwise, thereby moving the hook arm I33 (Fig. 9) into the path of the stem of the total key H5.

German. Ormrion In order that a clear understanding of the invention may be had, specific illustrations in addition, subtraction having a positive remainder, and subtraction having a negative remainder, are now given. 7

Assume that the accumulator is cleared and it is desired to add "725," 104 and 368, then the following occurs:

From the above illustration, it will be understood that the item dials are cleared at the beginning of each new operation of the machine and the new item set up toward the end of the forward stroke. Referring now to subtraction by complementary addition having a positive remainder, assume that the accumulator is cleared and it is desired to subtract 275 from 380, then the following occurs:

FXAMILIES or SnBTaAcTIoN (Posrrrvc REMAINDERX 380 minuend 275 subtrahend 105 remainder Accumulator pinions Item dials lst operation i 000000380 000000380 2nd operation ..e 000000105 000000275 (red) Blank stroke 000000105 000000000 Total 000000000 000000105 Tracing again the example above, showing a positive remainder, the first item (or the minuend) is set up in the keyboard by depressing 380 using the large figures on the digit keys 30. Therefore, after the first operation of the machine, 000000380 will be entered in the accumulator pinions 60 and 000000380 will appear in the item dials through window I66.

The second item (or the subtrahend), which in this example is a subtracted amount, is set up in the keyboard by depressing 275 using the small figures on the digit key 30, and operating the subtract key lever 20|. Thus the amount actually set up on the pin carriage is 999999724 and when this is added to the 000000380, amount in the accumulator pinions' -the fugitive one is carried from the highest order to the lowest order and 000000105 will be the amount stored in the accumulator pinion and transfers the positive total of 000000105 to the item dials which appears in black figures through window H56 in the casing I61.

Referring now to subtraction by complementary addition having a negative remainder, assume that the accumulator is cleared and it is desired to subtract 450 from 375, then the following occurs:

EXAMPLE or SUBTRAOTION (NEGATIVE REMAINDER) 375 minuend 450 subtrahend 75 remainder negative remainder, the first item (or the minuend) is set up in the keyboard by depressing 375" using the large figures on the digit keys. Therefore, after the first operation of the machine 000000375 will be stored in the accumulator pinions and 000000375 will appear in the item dials.

The second item (or the subtrahend) which in this example is a subtracted amount is set up in the keyboard by depressing 450 using the small figures on the digit keys (or complements of the large figures) and depressing the subtract key. Thus the amount actually set up in the pin carriage is 999999549 and when this amount is added to the 000000375 amount in the accumulator pinions no carry-over takes place and 999999924 is in the accumulator pinions after the second operation of the machine, and 000000450 will appear in the item dials showing the amount subtracted or the subtrahend. A blank stroke is then taken which clears the item dials and retains the 999999924 in the accumulator pinions. The total key is then depressed which clears the accumulator pinions and. transfers the 999999924 therein into the item dials. The operator recognizes the above amount as being negative and operates the subtract key so that the complement of 999999924 which is 000000075, the correct total, may be read in red on the item dials.

While I have described what I consider to be highly desirable embodiments of my invention, it is obvious that many changes in form could be made without departing from the spirit of my invention, and I, therefore, do not limit myself to the exact form herein shown and described, nor to anything less than the whole of my invention as hereinbefore set forth, and as hereinafter claimed.

What I claim as new, and desire to secure by Letters Patent, is:

1. In a computing machine of the class described, a plurality of item dials having one set of positive and one set of negative figures thereon, a shutter movable to an add position to expose said positive set of figures and to a subtract position to expose said negative set of figures, a subtract key-capable upon depression thereof of conditioning said machine for subtraction, moving means operable upon depression of said subtract key to move said shutter to said subtract position, a latch for holding said shutter in the said subtract position, a main operating mechanism, and means operable by said main operating mechanism to disable said latch.

2. In a computing machine of the class described, a plurality of item dials having one set of positive and one set of negative figures thereon, a shutter movable to an add position to expose said positive set of figures and to a subtract position to expose said negative set of figures, a subtract key capable upon depression thereof of conditioning said machine for subtraction, moving means operable upon depression of said subtract key for moving said shutter to said subtract position, a main operating mechanism, means operable by said main operating mechanism for actuating said moving means to restore said subtract key to its undepressed position, and a latch for holding said shutter in said subtract position during the restoration of said subtract key to normal position.

3. In a computing machine of the class described, a plurality of item dials having one set of positive and one set of negative figures thereon, a shutter movable to an add position to expose said positive set of figures and to a subtract position to expose said negative set of figures, a subtract key capable upon depression thereof of conditioning said machine for subtraction, moving means operable upon depression of said subtract key to move said shutter to said subtract position, a latch for holding said shutter in said subtract position, a main operating mechanism, means operable by said main operating mecha nism for actuating said moving means to restore said subtract key during the subtraction operation of said machine, additional means operable by said main operating mechanism for disabling said latch during an adding cycle of said machine following a subtraction cycle of same and means effective when said latch is disabled to restore said shutter to 1% add position.

4. In a computing machine of the class described, a plurality of item dials having one set of positive and one set of negative figures thereon, a shutter movable to an add position to expose said positive set of figures and to a subtract position to expose said negative set of figures, a subtract key capable upon depression thereof of conditioning said machine for subtraction, moving means operable upon depression of said subtract key to move said shutter to said subtract position, a latch for holding said shutter in said subtract position, a main operating mechanism, means operable by said main operating mechanism for actuating said moving means to restore said subtract key, and additional means operable by said main operating mechanism for disabling said latch.

WALTER W. LANDSIEDEL. 

